Artículos de revistas: "Ink jet printmaking technology"

1

Peeters, E., and S. Verdonckt-Vandebroek. "Thermal ink jet technology." IEEE Circuits and Devices Magazine 13, no. 4 (July 1997): 19–23. http://dx.doi.org/10.1109/101.600705.

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2

Haysom, Peter. "Improvements in ink-jet technology." Data Processing 27, no. 7 (September 1985): 31–33. http://dx.doi.org/10.1016/0011-684x(85)90095-4.

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3

Jeong, Kyoung-Mo, and Yong-Kyu Lee. "Advanced Technology and Prospect of the Ink-jet Printing (I) - Ink Characteristics and Ink-jet Paper -." Journal of Korea Technical Association of the Pulp and Paper Industry 52, no. 6 (December 31, 2020): 5–16. http://dx.doi.org/10.7584/jktappi.2020.12.52.6.5.

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4

Li, Ya Ling, Xi Guo, Xiao Juan Feng, and Lu Hai Li. "Graphene Oxide for Ink-Jet Printing Technology." Applied Mechanics and Materials 748 (April 2015): 77–80. http://dx.doi.org/10.4028/www.scientific.net/amm.748.77.

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In order to acquire a suitable ink for ink-jet printing technology, a graphene oxide ink was explored based on the GO aqueous dispersion. The GO dispersion was characterized by field emission scanning electron microscopy (FESEM) and X-ray diffraction (XRD). The average particle diameter and zeta potential of the GO dispersion was determined by zeta potential & particle size analyzer. The GO ink is composed of 1,2-propanediol, diethylene glycol monobutyl ether, glycerol, polyvinyl pyrrolidone (PVP) and GO dispersion. The surface tension and viscosity of the GO ink was tested by surface tension meter and rheometer. The GO ink was inkjet printed on polyethylene terephthalate (PET) substrate. The optimal inkjet printing parameters were obtained and the printing quality was characterized by confocal laser scanning microscopy. The results show that the GO ink is suitable for inkjet printing technology and the morphology of the GO film with one printing pass has good uniformity.

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5

KOSEKI, Ken'ichi. "Recent Advanced Ink Jet Printing Technology." Journal of the Japan Society of Colour Material 85, no. 6 (2012): 254–58. http://dx.doi.org/10.4011/shikizai.85.254.

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6

Spinelli, Harry J. "Polymeric Dispersants in Ink Jet Technology." Advanced Materials 10, no. 15 (October 1998): 1215–18. http://dx.doi.org/10.1002/(sici)1521-4095(199810)10:15<1215::aid-adma1215>3.0.co;2-0.

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7

Croucher, Melvin D., and Michael L. Hair. "Design criteria and future directions in ink-jet ink technology." Industrial & Engineering Chemistry Research 28, no. 11 (November 1989): 1712–18. http://dx.doi.org/10.1021/ie00095a023.

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8

Ohta, Tokuya. "Color Ink Jet Printing." JAPAN TAPPI JOURNAL 47, no. 10 (1993): 1201–6. http://dx.doi.org/10.2524/jtappij.47.1201.

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9

Wallace, D. B. "Automated Electronic Circuit Manufacturing Using Ink-Jet Technology." Journal of Electronic Packaging 111, no. 2 (June 1, 1989): 108–11. http://dx.doi.org/10.1115/1.3226514.

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The feasibility of using ink-jet technology to write circuits on PC board material and TAB substrate has been demonstrated. Several systems were evaluated and the most successful system used paraffin as a resist material on a copper substrate. The copper was etched and the paraffin subsequently removed to form the conductive paths of the circuit. Line widths down to 100μm were achieved, and line widths of 50μm were shown feasible. The generation of the print pattern from a computer file illustrated the potential of coupling a circuit writing system to an electrical CAD system to provide rapid turnaround prototype circuits.

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10

Teng, K. F., and R. W. Vest. "Application of ink jet technology on photovoltaic metallization." IEEE Electron Device Letters 9, no. 11 (November 1988): 591–93. http://dx.doi.org/10.1109/55.9286.

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11

Kang, Hye-Lim, Sung-min Sim, Yeonsu Lee, Jun Ho Yu, Kwon-Yong Shin, Sang-Ho Lee, and Jung-Mu Kim. "Flip chip bonding using ink-jet printing technology." Microsystem Technologies 25, no. 12 (May 20, 2019): 4753–59. http://dx.doi.org/10.1007/s00542-019-04480-6.

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12

Sun, Jing Mei, Xian Fu Wei, and Bei Qing Huang. "Influence of the Surface Tension of Edible Ink to Piezoelectric Ink-Jet Printing Drop State." Applied Mechanics and Materials 184-185 (June 2012): 267–70. http://dx.doi.org/10.4028/www.scientific.net/amm.184-185.267.

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Ink-jet printing technology is the mainstream of digital printing, and piezoelectric ink-jet printing is the main ink-jet printing at present, besides, drop’s injection and controlling technology is the key to the development of ink-jet printing technology. The surface tension plays an important role in the drop’s generation process, it will restrict the length and the state of the drop, further influence ink-jet printing quality. Six edible ink samples with different surface tension are prepared in order to research the influence of the surface tension to the piezoelectric inkjet Printing drop state, then the drop state is observed and its speed and volume are measured through drops observatory. The result shows that the speed of drop is higher if the ink’s surface tension is lower, but the drop is easier to gather into spherical drop and it also has smaller tail length and bigger volume.

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13

Tseng, Chun-Chieh, Chang-Pin Chang, Yuh Sung, Yann-Cheng Chen, and Ming-Der Ger. "A novel method to produce Pd nanoparticle ink for ink-jet printing technology." Colloids and Surfaces A: Physicochemical and Engineering Aspects 339, no. 1-3 (May 2009): 206–10. http://dx.doi.org/10.1016/j.colsurfa.2009.02.026.

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14

Usui, Minoru. "Hardcopy. Hardcopy Systems. Ink Jet Technology-The Problems of Ink Jet Technology in Respect of Improving Print Quality and Print Speed." Journal of the Institute of Television Engineers of Japan 49, no. 7 (1995): 853–56. http://dx.doi.org/10.3169/itej1978.49.853.

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15

Inada, Maki, Yasushi Kumashiro, Hideo Nakako, Takaaki Noudou, Kyoko Kuroda, and Kazunori Yamamoto. "Material Technology of Conductive Wiring for Ink-jet Print." Transactions of The Japan Institute of Electronics Packaging 4, no. 1 (2011): 114–18. http://dx.doi.org/10.5104/jiepeng.4.114.

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16

Carrijo, Mylena M. M., Laura G. Caro, Hannes Lorenz, Peter Greil, Nahum Travitzky, and Carlos R. Rambo. "Ti3SiC2-based inks for direct ink-jet printing technology." Ceramics International 43, no. 1 (January 2017): 820–24. http://dx.doi.org/10.1016/j.ceramint.2016.10.014.

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17

Carrión, Alejandro. "Technology forecast on ink‐jet head technology applications in rapid prototyping." Rapid Prototyping Journal 3, no. 3 (September 1997): 99–115. http://dx.doi.org/10.1108/13552549710185680.

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18

Johansson, T., J. Nilsson, N. G. Holmer, and C. H. Hertz. "Ink Jet Printing of Digital Radiographs." Acta Radiologica 31, no. 1 (January 1, 1990): 108–10. http://dx.doi.org/10.3109/02841859009173064.

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Johansson, T., J. Nilsson, N. G. Holmer, and C. H. Hertz. "Ink Jet Printing of Digital Radiographs." Acta Radiologica 31, no. 1 (January 1990): 108–10. http://dx.doi.org/10.1080/02841859009173064.

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20

Enomae, Toshiharu, Dmitry Ivutin, Akira Isogai, Kazumasa Matsumoto, and Kenzo Nakanishi. "Ink Penetration Mechanisms for Modified Calcium Carbonate-coated Ink-jet Paper." JAPAN TAPPI JOURNAL 59, no. 11 (2005): 1694–705. http://dx.doi.org/10.2524/jtappij.59.1694.

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21

Xiu, Xiao Jie, and Hong Jun Tang. "Automatic Block Detection for Ink Jet Head." Applied Mechanics and Materials 310 (February 2013): 424–27. http://dx.doi.org/10.4028/www.scientific.net/amm.310.424.

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Inkjet printing technology has been used in several areas and the inkjet printer uses different inks, for example oil ink for cloth printing, color glaze ink for ceramic printing and so on. The printer ink jet head uses these inks are blocked frequently. An automatic block detection system has been presented in this paper. The system provides droplet deposition apparatus comprising of: a fluid chamber; a nozzle in fluid communication with the chamber for ejection of fluid; a monitor; CCD camera; image capturing and processing module. The system has applied to ink jet and droplet image detection and it is proved effective and the detection result is accuracy.

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22

Hsieh, Yi-Chieh, Han-Yi Wang, Kuang-Chih Tso, Chung-Kai Chang, Chi-Shih Chen, Yu-Ting Cheng, and Pu-Wei Wu. "Development of IrO2 bio-ink for ink-jet printing application." Ceramics International 45, no. 13 (September 2019): 16645–50. http://dx.doi.org/10.1016/j.ceramint.2019.05.206.

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23

Li, Jiehua, Chuanshan Zhao, Wenjia Han, and Yifei Jiang. "Study on color ink-jet printing paper coating with nano-SiO2 as pigment." E3S Web of Conferences 79 (2019): 01002. http://dx.doi.org/10.1051/e3sconf/20197901002.

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With many years of research, color ink-jet printing technology has reached the requirements of color ink-jet printing. The significance of this experiment is to find a suitable method to improve the quality of color ink-jet printing paper. In this work, the dispersion effect and types of sodium polyacrylate (PAAS) on nano-SiO2 solution are discussed, and the most suitable PAAS dosage is selected. When the dosage of PAAS is 8%, the dispersibility of nano-SiO2 solution is much better, with an average color density of 1.60, a gloss of 59% and an ink absorption value of 10.2 cm. Adhesives also have a great influence on color ink-jet printing paper. When the amount of PVA is 30% of nano-SiO2, the average color density is 1.62. Glossiness and ink absorption are also the best.

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24

Liao, Mei Hong. "Study on Consumables of Ink-Jet Printing in Producing PCB." Advanced Materials Research 430-432 (January 2012): 925–28. http://dx.doi.org/10.4028/www.scientific.net/amr.430-432.925.

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Ink-jet printing technology has been applied in producing PCB, but it hasn’t formed a large-scale industrialized production in general. This paper summarizes the types and problems of consumables of ink-jet printing in producing PCB.

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25

Cui, Wenjuan, Wensheng Lu, Yakun Zhang, Guanhua Lin, Tianxin Wei, and Long Jiang. "Gold nanoparticle ink suitable for electric-conductive pattern fabrication using in ink-jet printing technology." Colloids and Surfaces A: Physicochemical and Engineering Aspects 358, no. 1-3 (April 2010): 35–41. http://dx.doi.org/10.1016/j.colsurfa.2010.01.023.

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26

Yang, Yu, Yan Yan Cui, Guang Xue Chen, and Ming Hui He. "Preparation and Study of Ink-Jet Printing of Ag Based Conductive Ink on Paper." Applied Mechanics and Materials 731 (January 2015): 524–27. http://dx.doi.org/10.4028/www.scientific.net/amm.731.524.

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Compared with the lithography and traditional technology, ink-jet printing technology has huge advantages such as reducing costs, improving production efficiency and reducing environment damage. The silver nanoparticles conductive ink used as core material in ink-jet printing technology has been greatly developed. At present, the conductive inks for printed circuit usually has high sintering temperature, low adhesion, poor mechanical properties, high cost, which limit the further industrial application. In this paper, nano silver pulp was prepared through liquid phase reduction method, and a self-made protective agent ensured that the particle size distribution of silver particles is about 5nm. The above silver pulp was dispersed in the organic resin to get conductive ink with 20% (wt%) silver content. Under 170°Csintering, the electrical conductivity of the ink layer was 1.15×104S/m.

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27

Whitley, Michael R., and Tracy D. Hudson. "Flexible Electronics Fabrication for Missile Wiring Interconnects." Additional Conferences (Device Packaging, HiTEC, HiTEN, and CICMT) 2012, DPC (January 1, 2012): 001096–114. http://dx.doi.org/10.4071/2012dpc-tp34.

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The increased usage of unmanned aerial vehicles has driven the desire for smaller and lighter missile bodies. The wiring harnesses required to connect the missile subsystems constitute a significant portion of the missile weight and cost. We have been exploring the development of flexible electronics substrates manufactured using ink jet technology on polyimide films. This technology has an advantage over traditional flex circuit manufacturing because in addition to creating traditional wiring patterns the ink jet technology enables the creation of passive components such as resistors and capacitors. The Dimatix DMP-2831 ink jet system uses individually controllable piezoelectric driven MEMS nozzles to precisely deposit nanoparticle inks. These inks are then annealed to form wiring patterns. We will present the process for converting traditional printed circuit board data formats to inkjet printable data, the process for depositing the ink, annealing and testing.

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28

Zhang, Xiao, Yan Li, Tao Jin, and Miao Liu. "Measure and Prediction Analysis on the Ink-Jet Head Technology." Applied Mechanics and Materials 329 (June 2013): 255–58. http://dx.doi.org/10.4028/www.scientific.net/amm.329.255.

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Evolution tree is the inheritance and development of classical TRIZ; it is easy to operate system evolution theories. This paper mainly elaborates the compositions and building rules of evolution trees; takes the thermal ink-jet head for instance; builds evolution tree; then predicts the development. This method is convenient and practical; it provides a new idea for enterprises to formulate the R & D direction of product future.

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Jeong, Kyoung Mo, Jong Myung Won, Yong Kyu Lee, and Ken'ichi Koseki. "Review : The Advanced Inkjet Printing Technology - UV curable Jet Ink -." Journal of Korea Technical Association of The Pulp and Paper Industry 46, no. 2 (April 30, 2014): 46–56. http://dx.doi.org/10.7584/ktappi.2014.46.2.046.

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Okabe, Masato, Makoto Ishikawa, Naoko Sawatari, and Ryo Harada. "37.2: Field-Sequential FLCDs Fabricated by Ink-Jet Technology (II)." SID Symposium Digest of Technical Papers 39, no. 1 (2008): 530. http://dx.doi.org/10.1889/1.3069719.

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Vasiliev, Alexey A., Anton V. Nisan, and Nikolay N. Samotaev. "Aerosol/Ink Jet Printing Technology for High-Temperature MEMS Sensors." Proceedings 1, no. 4 (August 18, 2017): 617. http://dx.doi.org/10.3390/proceedings1040617.

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32

Su, Pei-Ju, Yi-An Sha, Cheng-Hsi Hsieh, Ku-Hsien Chang, Jyh-Wen Shiu, Kuo-Chang Lee, Chih-Chun Hsiao, et al. "P-142: Multi-Domain Alignment Technology by Ink-Jet Printing." SID Symposium Digest of Technical Papers 38, no. 1 (May 2007): 735–37. http://dx.doi.org/10.1889/1.2785409.

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Li, Lu Hai, Yi Fang, Zhi Qing Xin, Xiao Jun Tang, Peng Du, and Wen Zhao. "Features of Printing and Display." Key Engineering Materials 428-429 (January 2010): 372–78. http://dx.doi.org/10.4028/www.scientific.net/kem.428-429.372.

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The manufacture of display device is a complex technology. To reach the flexible display like E-paper, many manufacture process such as driving electrode circuit and transistor must be combined with printing technology. From the information reported, the application of gravure prints technology in organic electronics; off-set printing in EMI film and screen technology in circuit are summarized. The study was more about ink jet print technology. It was described that ink jet was used in OLED (Organic light-emitting diode), OTFT (organic thin film transistor), polymer solar cell/ Flexible organic photovoltaic cell and so on. An OE-A (organic electronics application) roadmap for the charge carrier mobility of semiconductors for organic electronics applications was given. To achieve the printed circuit, the nano silver conductive ink was applied and the ink jet circuit surface was tested by microscopy, the conductive and flexible silver film was with many advantages than screen circuit. It was concluded that the printing electronic will play important roll in the display development.

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Paegle, Linda, Žanna Martinsone, Ivars Vanadziņš, Ilona Pavlovska, and Lāsma Akūlova. "NUMBER OF FINE PARTICLES’ AND THEIR MASS CONCENTRATION: COMPARISON OF EMISSION OF NEW PRINTING TECHNOLOGY VERSUS TRADITIONAL LASER TECHNOLOGY." ENVIRONMENT. TECHNOLOGIES. RESOURCES. Proceedings of the International Scientific and Practical Conference 1 (June 16, 2021): 200–205. http://dx.doi.org/10.17770/etr2021vol1.6558.

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For many years the printers have been essential part of our offices and exposures from various printing technologies have been widely researched. The main objective of this study was to compare emitted number and mass of fine particles from laser printers and new Micro Piezo technology ink jet printers during the printing process and one hour afterwards as these emissions have potential for negative health effects.Air samples were taken with the particle size spectrometer for real-time ELPI+, Dekati (air flow rate 10 l/min). Measurements were taken ~0.5 m from the printers: one hour before the test, during printing and one hour afterwards. Similar class blackwhite (b/w) and colour printer of each technology were tested. Each printer performed a 10-page and a 100-page test according to ECMA 328-1 Standard [1].During laser printer tests from 8324 to 19943 pt/cm3 fine particles were determined on printing phase from b/w and colour printers. Ink jet (Micro Piezo) printers produced less: from 3239 to 5247 pt/cm3. One hour after the printing phase for both types of laser printers’ there were 54722 to 152351 pt/cm3 particles in air and 4270 to 9579 pt/cm3 particles for ink jet printers. Detected particle mass differences was insignificant: in range of 0.002 to 0.012 mg/m³ for laser printers and 0.002 to 0.019 mg/m³ for ink jet printers. Micro Piezo technology printers emitted mass particles were with bigger median size μm.The highest number of particles was observed one hour after the printing for both tested printer technologies. Laser printers’ emitted 2.5 to 3.8 times more particles in printing phase and 12.8 to 15.9 times more after printing phase. Particle mass in mg/m³ was detected in the size range 6nm - 2.5 μm with no significant mass differences.

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35

Wang, Ming, Lisa Parrillo-Chapman, Lori Rothenberg, Yixin Liu, and Jiajun Liu. "Digital Textile Ink-Jet Printing Innovation: Development and Evaluation of Digital Denim Technology." Journal of Imaging Science and Technology 65, no. 4 (July 1, 2021): 40407–1. http://dx.doi.org/10.2352/j.imagingsci.technol.2021.65.4.040407.

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Abstract This research explored the potential for ink-jet printing to replicate the coloration and finishing techniques of traditional denim fabric and standardized the reproduction and evaluation procedure. Although denim fabric is widely consumed and very popular, one drawback to denim is that the finishing and manufacturing processes are energy and water intensive and can cause environmental hazards as well as generation of pollution through water waste, particularly at the finishing stage. Textile ink-jet printing has the potential to replicate some of the coloration and finishing techniques of traditional denim fabric without negative environmental impacts. A two-phase research project was conducted. In Phase I (P1), an optimal standard production workflow for digital denim reproduction (including color and finishing effects) was established, and six different denim samples were reproduced based on the workflow. In Phase II, an expert visual assessment protocol was developed to evaluate the acceptance of the replicated digital denim. Twelve ink-jet printing, color science, and denim industry experts finished the assessment.

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GOTO, SHISEI, HIROMICHI TSUJI, ISAO ONODERA, KEIGO WATANABE, and KATSUMASA ONO. "Cavitation-jet deinking: A new technology for deinking of recovered paper." September 2014 13, no. 9 (October 1, 2014): 9–17. http://dx.doi.org/10.32964/tj13.9.9.

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A new method and in-house device for treating secondary fiber were developed. The method is based on the fluid-jet cavitation technique. In this apparatus, pulp suspension was injected into the reacting vessel by using a high-speed jet that produced cavitation bubbles around the jet. The impact of the collapse of cavitation bubbles detached ink, binder, and other contaminants from fiber surfaces. The effects of the cavitating jet (CV-jet) treatment on deinking of the pulp from mixed office waste (MOW) and old newsprint/old magazines (ONP/OMG) mixture were studied. The basic experiments on cavitation control showed that the intensity and region of cavitation were controlled by the jet velocity and the pressure difference in the reacting vessel. The CV-jet generated broad ultrasound waves; the conventional ultrasonic apparatus generated an intrinsic frequency. The MOW test results showed that CV-jet, even without chemicals and high temperature, decreased dirt speckles and reached almost the same dirt reduction level as the mill kneader. Moreover, the CV-jet minimized fiber damage during the process. This yielded pulp handsheets giving much higher paper strength compared with pulp from the kneader. The ONP/OMG test revealed that CV-jet was superior to mill disperser in terms of ink detachment and stickies dispersion.

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37

Lee, Jae-Young, Cheong-Soo Choi, Kwang-Taek Hwang, Kyu-Sung Han, Jin-Ho Kim, Sahn Nahm, and Bum-Seok Kim. "Optimization of Hybrid Ink Formulation and IPL Sintering Process for Ink-Jet 3D Printing." Nanomaterials 11, no. 5 (May 14, 2021): 1295. http://dx.doi.org/10.3390/nano11051295.

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Ink-jet 3D printing technology facilitates the use of various materials of ink on each ink-jet head and simultaneous printing of multiple materials. It is suitable for manufacturing to process a complex multifunctional structure such as sensors and printed circuit boards. In this study, a complex structure of a SiO2 insulation layer and a conductive Cu layer was fabricated with photo-curable nano SiO2 ink and Intense Pulsed Light (IPL)-sinterable Cu nano ink using multi-material ink-jet 3D printing technology. A precise photo-cured SiO2 insulation layer was designed by optimizing the operating conditions and the ink rheological properties, and the resistance of the insulation layer was 2.43 × 1013 Ω·cm. On the photo-cured SiO2 insulation layer, a Cu conductive layer was printed by controlling droplet distance. The sintering of the IPL-sinterable nano Cu ink was performed using an IPL sintering process, and electrical and mechanical properties were confirmed according to the annealing temperature and applied voltage. Then, Cu conductive layer was annealed at 100 °C to remove the solvent, and IPL sintered at 700 V. The Cu conductive layer of the complex structure had an electrical property of 29 µΩ·cm and an adhesive property with SiO2 insulation layer of 5B.

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38

Sun, Jing Mei, Xian Fu Wei, and Bei Qing Huang. "The Influence of the Viscosity of Edible Ink to Ink-Jet Printing Drop State." Advanced Materials Research 535-537 (June 2012): 2559–62. http://dx.doi.org/10.4028/www.scientific.net/amr.535-537.2559.

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Inkjet Printing is a non-contact printing, and it has wide adaptability, high speed and intelligence, low cost and no pollution as well, so it is the best printing form for food and drug surface printing. Drops control technology is the key to the development of ink-jet printing technology, and viscosity is also the key factor that influences the drop state. In this article, the samples which have different viscosity are got by the way of adding different levels of resin to the ink. Drop state is observed through drops observatory, the speed, tail length and volume are measured by it in order to evaluate the influence of viscosity to ink-jet drop state. The result shows that viscosity has big influence to ink-jet drop state, if the viscosity is larger, the speed of drops is smaller. The ink with high viscosity is easier to gather into a circular drop than that with small viscosity. If the viscosity more than 13.2mPa•s, the rupture time and tail length of the drop increases along with the increase of viscosity. When the viscosity is 10.3mPa•s, its rupture time is 80s and the ink soon gather into a circular drop under the action of cohesion, its drop state is the best.

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39

Zang, Ting, Yun Xia Qu, Li Dan Jia, and An Ping Xu. "Virtual 3D Ink-Jet Printing System for Heterogeneous Object." Advanced Materials Research 538-541 (June 2012): 2868–71. http://dx.doi.org/10.4028/www.scientific.net/amr.538-541.2868.

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3D ink-jet printing is regarded as the ideal manufacturing technology for Heterogeneous Object(HO) materials, but this technology is much restricted by the high requirement on idealized materials, high forming cost and imperfect modeling and layering technology for HO. To solve these problems, a virtual 3D ink-jet printing system for simulation of HO fabrication is developed in this paper. Since the physical model is replaced by the digital model, the potential risk will be avoided effectively and it will result in higher product quality and much lower manufacturing cost. Finally, examples of the virtual formed prototypes are given.

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40

Sun, Jing Mei, Xian Fu Wei, and Bei Qing Huang. "Research on the Influencing Factors to Printing Quality of Edible Ink-Jet Printing Ink." Applied Mechanics and Materials 262 (December 2012): 282–86. http://dx.doi.org/10.4028/www.scientific.net/amm.262.282.

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In the process of the ink drops forming and spreading out, the viscosity and surface tension of the ink play an important role, and then the drops’ injection and printing quality will be influenced by this process. Besides, drops control technology is the key of ink-jet printing technology, and the drops’ injection state will also influence the printing quality. In order to research the influencing factors to printing quality, many samples with different performances are prepared and their drop states include speed, tail length and volume are measured with drop observatory. And then, the specimen pages include lines of different width are printed, order to assessment the printing quality comprehensively, their line width, raggedness, blurriness, density and contrast are measured. The result show that the inks with different performance show different speed, tail length and volume, and their corresponding printing qualities are different too, and there exists linear relationship between printing quality and the drops’ viscosity, surface tension and speed.

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41

Dondi, M., F. Matteucci, Davide Gardini, Magdab Blosi, Anna L. Costa, Carmen Galassi, Giovanni Baldi, A. Barzanti, and E. Cinotti. "Industrial Ink-Jet Application of Nano-Sized Ceramic Inks." Advances in Science and Technology 51 (October 2006): 174–80. http://dx.doi.org/10.4028/www.scientific.net/ast.51.174.

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Ink-jet printing is becoming a leading technology for traditional ceramics, due to its capacity of reproducing highly resolved and customized images on tile surfaces. Nano-sized inks, produced by the polyol synthesis route, proved to fulfil the printing requirements, tailoring their chemico-physical properties (e.g. viscosity, surface tension) on industrial ink-jet devices, so representing a major breakthrough in the quadrichromy process.

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42

Ono, Kentaro, Hideki Touda, and Junji Kasai. "Development of New Agent for Ink Jet Paper." JAPAN TAPPI JOURNAL 60, no. 2 (2006): 212–19. http://dx.doi.org/10.2524/jtappij.60.212.

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43

Kim, Sun-Goo, Kyoung-Mo Jeong, and Yong-Kyu Lee. "Basic Study on Manufacturing Ink-jet Paper for High Speed Coating (I): Composition of Binder and Properties of Ink-jet Paper." Journal of Korea Technical Association of the Pulp and Paper Industry 52, no. 6 (December 31, 2020): 140–48. http://dx.doi.org/10.7584/jktappi.2020.12.52.6.140.

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44

Radulescu, Delia, Sanjay Dhar, Christine M. Young, David W. Taylor, Hans-Jochen Trost, Donald J. Hayes, and Gregory R. Evans. "Tissue engineering scaffolds for nerve regeneration manufactured by ink-jet technology." Materials Science and Engineering: C 27, no. 3 (April 2007): 534–39. http://dx.doi.org/10.1016/j.msec.2006.05.050.

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45

Cooley, P. "Applicatons of Ink-Jet Printing Technology to BioMEMS and Microfluidic Systems." Journal of the Association for Laboratory Automation 7, no. 5 (October 1, 2002): 33–39. http://dx.doi.org/10.1016/s1535-5535(04)00214-x.

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46

Cooley, Patrick, David Wallace, and Bogdan Antohe. "Applicatons of Ink-Jet Printing Technology to BioMEMS and Microfluidic Systems." JALA: Journal of the Association for Laboratory Automation 7, no. 5 (October 2002): 33–39. http://dx.doi.org/10.1016/s1535-5535-04-00214-x.

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Resumen

Applications of microfluidics and MEMS (micro-electromechanical systems) technology are emerging in many areas of biological and life sciences. Non-contact microdispensing systems for accurate, high-throughput deposition of bioactive fluids can be an enabling technology for these applications. In addition to bioactive fluid dispensing, ink-jet based microdispensing allows integration of features (electronic, photonic, sensing, structural, etc.) that are not possible, or very difficult, with traditional photolithographic-based MEMS fabrication methods. Our single fluid and multifluid (MatrixJet™) piezoelectric microdispensers have been used for spot synthesis of peptides, production of microspheres to deliver drugs/biological materials, microprinting of biodegradable polymers for cell proliferation in tissue engineering applications, and spot deposition for DNA, diagnostic immunoassay, antibody and protein arrays. We have created optical elements, sensors, and electrical interconnects by microdeposition of polymers and metal alloys. We have also demonstrated the integration of a reversed phase microcolumn within a piezoelectric dispenser for use in the fractionation of peptides for mass spectrometer analysis.

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47

Weremczuk, Jerzy, Grzegorz Tarapata, and Ryszard Jachowicz. "Humidity Sensor Printed on Textile with Use of Ink-Jet Technology." Procedia Engineering 47 (2012): 1366–69. http://dx.doi.org/10.1016/j.proeng.2012.09.410.

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48

YOKOYAMA, Sho, Yuta IKEDA, Toshifumi OKAWARA, Yuta SUNAMI, and Hiroshi KIMURA. "Patterning of gel substrate for cell culture using ink jet technology." Proceedings of Mechanical Engineering Congress, Japan 2018 (2018): J0220101. http://dx.doi.org/10.1299/jsmemecj.2018.j0220101.

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49

Lin, L., and X. Bai. "Ink‐jet technology: status quo and future – relevance to surface coatings." Pigment & Resin Technology 33, no. 4 (August 2004): 238–44. http://dx.doi.org/10.1108/03699420410546926.

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50

Bogy, D. B., and F. E. Talke. "Mechanics-Related Problems of Magnetic Recording Technology and Ink-Jet Printing." Applied Mechanics Reviews 39, no. 11 (November 1, 1986): 1665–77. http://dx.doi.org/10.1115/1.3149508.

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In this paper, mechanical aspects of magnetic recording technology and nonimpact printing are discussed. In the recording area, theoretical and experimental aspects of air bearing theory, head/disk dynamics, and head/disk tribology are studied. Flutter of rotating disks is investigated, the flow field between rotating disks is described, and nonrepeatable run-out of disk file spindles is studied. Furthermore, the head/disk interface for flexible media is discussed and dimensional stability of flexible substrate is examined. In the printing area, experimental and theoretical investigations using continuous and drop-on-demand fluid jets are presented, and numerical calculations of the drop formation process in drop-on-demand fluid jets are described.

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